Improvign shed management for profits - NSW · PDF fileIdentify the strengths, weaknesses and...
Transcript of Improvign shed management for profits - NSW · PDF fileIdentify the strengths, weaknesses and...
DairyCHECK – Improving Shed Management for Profits
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Foreword 2
WHAT is DairyCHECK? 3
Introduction 4
Guide to the Shed Management Manual 5
SECTION 1: AUDIT OF YOUR EXISTING SHEDMANAGEMENT 6
SECTION 2: DESIGNING YOUR NEWHERRINGBONE SHED 13
SECTION 3: SELECTING THE MOST APPROPRIATEMILKING MACHINES 30
SECTION 4: AUDIT OF YOUR EXISTING DAIRYEFFLUINT MANAGEMENT SYSTEM 42
SECTION 5: DESIGNING YOUR NEW EFFLUENTMANAGEMENT SYSTEM 51
APPENDIX 1: CHECKLIST SUMMARY 57
APPENDIX II: THE BUILDING PROCESS 61
APPENDIX III: A PARTIAL BUDGET 65
Table of Contents
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ForewordChange is occurring at a rapid rate in the NSW dairy industry due to the cost-price squeeze associated with reduced milk prices and increasing costs ofproduction.
Many farmers wishing to stay in the industry are at the crossroads, having tomake major decisions on ways to improve farm productivity and profitability.
It is difficult to speculate on future milk prices but the cost of production andliving expenses suggest that we will need to continually challenge existingherd sizes and profit margins per hectare and per farm.
Lower milk prices suggest that gradual change will not be the complete answerand productivity gains will have to be made at even faster rates and greateramounts than in the past.
It has been estimated that we will have a shrinking industry when it comes tothe number of farms, however, in terms of the production per farm and theadoption of new technology, dairying in NSW will continue to be a growthindustry.
A common factor will be the need to increase the effectiveness of existingoperations to reduce costs then consider ways to graze and milk larger herdsto improve total farm income. This will involve close examination of the keydrivers of profit ie herd, shed, feed, labour and farm management.
Alex AshwoodDairyCHECK Coordinator.
Acknowledgements:The DairyCHECK Planning Team and Regional Extension Teams appreciatethe support of Dairy Industry Development Corporation (DIDCo), the SubTropical Dairy Program (SDP) and NSW Dairy Farmers Association and thefunds provided by NSW Agriculture and the Farmgate DeregulationAssistance Committee.
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WHAT IS DAIRYCHECK?
DairyCHECK is about farmers selecting the most appropriate technology andfarm management to improve the overall profitability of their farm.
DairyCHECK is based on a series of integrated technical packages and activities(eg.Tutorials and workshops) to help farmers make better decisions during aperiod of rapid changes.
The project comprises of three stages:
Stage 1 – Farm Management Audit – using a “Checklist” todetermine management opportunities for your farm by:
• Calculating the impact of deregulation on farm income• Knowing the strengths and opportunities of your farm• Identifying financial and physical key performance indicators• Examining ways to improve profits
Stage 2 – Farm Business Management – using various tools andpackages to determine the best ways to optimise the use ofresources by:
• Understanding the financial and physical performance of your farm• Identifying your goals and needs• Considering ways to be profitable• Analysing farm profits and performance
Stage 3 – Profitable Production System - using the most up-to-date knowledge and skills to develop and introduce new technologyand different production systems by:
• Examining different production scenarios• Identifying and analysing cost effective technology• Planning the implementation of different systems• Analysing future options and alternatives to improve profits.
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INTRODUCTION
The inability of many existing dairy sheds to satisfactorily milk more cows is amajor stumbling block to herd expansion and improved profitability. Manyexisting sheds with their current herd size already consume too much labour, soherd expansion is not an option. The decision to continue milking in your existingshed, upgrade the existing shed, or build a new shed requires careful planning.
The three options if the herd is increased are:
(a) increase labour requirements for milking in the existing shed(b) capital investment into a labour efficient upgraded or new shed(c) a combination of both (a) and (b)
The final decision will be a compromise between an expensive labour efficientshed, and a cheap high labour shed. To help with the decision making process, apartial budget should be used to calculate the costs and benefits of any plannedchanges (see Appendix iii).
This Dairy Shed Management manual will step you through the decision makingprocess of designing the most appropriate dairy shed (new, or upgrade of yourexisting shed) to meet your current and future needs. Only herringbone dairysheds are covered in this manual as they represent most of the new and converteddairies being built in NSW. Generally rotary dairies are not considered a viablealternative for dairies milking less than 300 cows. However, if you feel a rotarydairy is an option that should be considered, most of the information in thismanual is applicable.
The manual covers three (3) important areas of the milking shed:-
1 The design, size, configuration and layout of the milking shed;2 milking machine selection;3 dairy effluent management.
Each section lists the most common alternatives available to you for eachcomponent of the dairy shed with a summary of the good and bad points for eachalternative. The list is by no means exhaustive, but does cover the majority ofoptions available to you. If more information is required consult the furtherreadings list at the end of each section.
At the completion of the manual, you should have a clear picture of the mostappropriate dairy shed to meet your needs, as well as the steps required to getthe shed from the design phase to completion.
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STEP ONE
STEP TWO
STEP THREE
GUIDE TO THE SHED MANAGEMENT MANUAL
This booklet looks at shed management to improve the profitability of your farmas well as ensuring your environment responsibility.
Identify the strengths, weaknesses and opportunitiesof your existing milk shed.
A step by step process for designing the mostappropriate herringbone shed to meet your current andfuture needs.
A step by step process for selecting the most suitablemilking machines to meet your needs and budget.
An audit of your existing dairy effluent to identify if yoursystem meets industry guidelines and Governmentrequirements.
A step by step process to design and manage the mostappropriate dairy effluent system for your dairyenterprise.
The DairyCHECK Shed Management manual describes some keymanagement areas and key performance indicators to help you achieve higherprofits and farm income through better milking shed design.
The booklet will hopefully be an introduction to other management packages,available through your participation in DairyCHECK.
This self-help booklet on Shed Management to improve profits was compiledby:
Tony Dowman – NSW Agriculture, Kempsey
STEP FOUR
STEP FIVE
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INTRODUCTION
The NSW dairy industry has seen continual change to milking equipment andshed design to meet labour productivity goals and accommodate larger herds.
Nevertheless, with recent increases in herd sizes (10% increase per year), manyfarmers have found themselves in a situation where increasing labour units arebeing used to substitute for capital investment in labour saving technologies and/or modifications to sheds.
A startling statistic is that on over 40% of dairy farms, the milk harvesting processconsumes more than 50% of total labour available. Studies show that the timespent in milking operations (movement of cows, milking, cleaning) ranges fromthree to eight hours per day. Average sized herds (100-150 cows) can occupy 5½ - 6 hours/day for milk harvesting. While milking is an essential task, it shouldnot consume excessive labour or reduce grazing time for the herd.
Developing management techniques and introducing equipment to improve shedefficiency will be a major challenge to farm growth and productivity. The risk ofover-capitalising the milking shed to minimise milking times and labourrequirements must be compared to the other extreme of using a low cost lowthroughput shed which requires more labour and longer milking times.
The benefits of efficient milking sheds for pasture grazed herds are:
lower labour requirements, resulting in more available time for other on-farmactivities, or leisure; or less employed labour,
more grazing time for the herd,
reduced effluent which has to be managed.
The benefits for feed-lot dairies is less defined as lost grazing time is not an issuewhen the herd is split into groups and the feed-lot is adjacent to the milking area.Effluent management is not a problem as the system has been designed to handleall the daily effluent produced. Long milking times in low cost sheds is anoption to be considered for feed-lots.
As external forces (eg. the need to become more efficient as a result ofderegulation) place increasing pressures on dairy farmers, shed productivity willcontinue to figure high on the agenda.
Key performance indicators can be used to determine where improvements canbe made to increase shed efficiency and farm performance.
SECTION 1
Audit of your Existing Shed Management
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SHED MANAGEMENT – KEY PERFORMANCE INDICATORS (KPI)
Can your time and money be spent more profitably working on the farm byreducing milking times for yourself or employed labour?
The following performance indicators can be used to show how many cows arebeing milked in a certain time, and estimates of shed productivity to gauge whatimprovements need to be made.
• Cups on time (hours)Time spent from 1st cow entering bails to last cow leaving bails
= .......….. hours
• Cows/cluster/hourNumber of cows milked ÷ number of clusters ÷ cups on time (hours)
….….…..……. ÷ ………......…… ÷ ……….….…… = .............cows
• Clusters/operatorNumber of clusters ÷ number of operators milking
………………..........……… ÷ ………..…...…….....……= ..........clusters
• Shed time : milking time ratioTotal time spent at bails (hours) (preparing, milking and cleaning up) ÷ cupson time (hours)
……………………......……. ÷ ………….…….....…. = ..................:1
• Litres/operator/hourTotal milk production from 1 milking ÷ number of operators ÷ cups on time(hours)
…………..……. ÷ ……….........… ÷ …...….........… = ..............litres
• Cows/operator/hourNumber of cows milked ÷ number of operators milking ÷ cups on time (hours)
………………. ÷ ……………… ÷ ………………… = ..............cows
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SHED MANAGEMENT CHECKLIST
The following checklist can be used as guidelines to determine shed productivity and the overall efficiency of milkingoperations.
Checklist KPI My Farm Action Things to ConsiderOK Investigate( ) (?)
1 Cups on <2 hours per milking* • Wrong size shed for herd sizetime (hours) * Unless the decision • Is labour cheaper than a new
is made to have long shed?milking time. • Less time to do other farm
work• Excessive milking times may
impact on herd productionand labour utilisation
• Impact on family relationships
2 Cows per >5 (walk-through) • Slow cow preparationcluster per >8 (swing-over herringbone) • Poor cow flowhour >5 (double-up herringbone) • Labour saving devices
>7 (rotary) • Over milking• Milk harvesting routine• High production• Shed design• Extent of bail feeding
3 Clusters per >6 (walk-through) • Lack of automationoperator >12 (swing over herringbone) • Labour saving devices
>16 (double-up herringbone) • Work routine>20 (rotary) • Skilled labour
• Poor shed design
4 Shed time: <1.3:1 • No in-place cleaning In-efficient• yard washing
5 Litres per >300 (walk-through) • Low producing cowsoperator >960 (swing-over herringbone) • Cups:operator ratio lowper hour >800 (double-up herringbone) • Milk harvesting routine
>1400 (rotary) • Shed design• Skilled labour
6 Throughput >30 (walk-through) • High production cowscows per >96 (swing-over herringbone) • Slow cow preparationoperator > 80 (double-up herringbone) • Poor cow flowhour >140 (rotary) • Not enough clusters per operator
• Labour saving devices• Extent of bail feeding
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IMPORTANCE OF SHED MANAGEMENT KPI’S
Shed management key performance indicators will allow you to assess how wellyour milking shed is matched to your herd size, available labour and time, andmilking routine. Most sheds are a compromise between the ideal shed and whatis affordable.
1. KPI – Cups on timeMost dairy farmers have a limit on how much time they are prepared to spendeach day milking cows. This limit needs to be taken into consideration whendesigning new sheds and is influenced by available labour. A compromise hasto be reached between expensive low labour sheds, and cheap labour intensivesheds. Long milking times will reduce grazing time for the herd, unless the herdis split and smaller groups are bought to the shed at staggered intervals. Longermilking times will result in increased labour demands for both milking and herdmanagement, increased amounts of effluent to be managed, and less time availablefor other farm work or personal time.
2. KPI. – Cows per cluster per hourCows per cluster per hour indicates the expected difference between the shedtypes using similar milking practices. The ratio between the different sheds ismore important than the absolute figures when using this KPI to decide theadvantages of changing sheds.
3. KPI – Clusters per OperatorClusters per operator have increased over the years from 3 in old walk-throughsheds to 50 in large rotary dairies using automation and one labour unit puttingon cups. This KPI does not always measure shed efficiency. Milking efficiencydoes not improve if there are too many clusters for the operators to handle resultingin over-milking or clusters hanging idle.
4. KPI – Shed time : Milking time ratioPreparing the shed for milking, and cleaning up afterwards can consumeconsiderable time. New yards should be designed for flood wash, even if thesystem is not installed straight away. Hose-down areas should use high volumepumps to reduce time. In-place cleaning of machines and vats will further reduceshed time. Stock movement time to and from the dairy needs to be consideredas well. Location of the dairy in relation to grazing paddocks, and the use ofsuitably sized laneways constructed from materials that will not cause lamenesswill influence shed times.
5. KPI – Litres per Operator per hourLitres per operator per hour is similar to cows per operator per hour but takesinto account reduced through-put caused by high producing herds.
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6. KPI – Through-put as cows per operator per hourCows per operator per hour is the most common indicator used to measure theperformance of the dairy shed as it takes into account the efficiency of the operatorto milk cows as well as matching the size of the shed to the available labour andherd performance.
A shed which is poorly designed for cow movement on and off the platforms,too few clusters per operator, excessively long cow preparation times, and highproducing herds will reduce the efficiency of the shed. Many sheds add extraunnecessary labour units during milking for company or convenience at theexpense of maximising labour efficiency. Labour saving devices (cup removersetc.) can have a dramatic effect on this KPI.
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DAIRY CHECK – DAIRY SHED MANAGEMENT
What do you believe the main shed management issues on your farm are?
Write down the issues that may be limiting the performance of your shed.
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Using the KPI’s and knowledge of your operations, please consider the following questions…..
What are your strengths in Shed Management?
WHAT are your opportunities in Shed Management?
WHAT do you need to change?
WHAT are the most pressing changes?
WHAT will you address first?
WHAT will you achieve by taking action?
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The construction of a new dairy is a large capital expense and therefore requirescareful planning to ensure that the new dairy will meet your future needs.
There is a wide range of variations in design and features that should be consideredwhen planning a new herringbone. The design and configuration most suitableto your needs will depend upon many factors including cow numbers, labouravailability, budget, and personal preferences. It is recommended to makeprovision for expansion of the herringbone shed in the original design to caterfor future increases in cow numbers.
The following questions will help you decide the most appropriate milking shedfor your farm.
1 How many cows are you milking today? Cows
2 How many cows do you plan to milk in 5 years time? Cows
3 How many operators do you intend to use tomilk the herd? People
• Will the available labour change in 5 years?
4 What is the maximum length of time at each milking you are aiming for-
a) Milking the cows only? (ie. cups on time) hours
b) Total time at shed (setting up + milking + cleaning up)? hours
5 Do you want to make allowances in the design of the dairy for futureincrease in herd size?
YES NO
6 Do you want swing-over or double-up?
swing over
• high cow throughput per cluster per hour (up to 9)• allows for easy future expansion• cheaper milking machines (less clusters for same throughput)• longer platforms in relation to the total numbers of clusters• must use mid or high line milking machines• slow milking cows hold up the entire shed.
SECTION 2
Designing your new Herringbone Shed
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double-up
• shorter platforms in relation to the total number of clusters• can use high, mid or low line milking machines• slow cows only hold up one side• lower cow throughput per cluster per hour (up to 6)
7 The number of cows on each platform?
Determined by herd size, labour availability, amount of automation, maximumcups on time, throughput, and milking machine set-up.
• For a swing-over, number of cows per side =herd size ÷ preferred cups on time (hours) ÷ throughput (cows/cluster/hour)
….…....……. ÷ ….….…....… ÷ …....…....… =
• For a doule-up, number of cows per side =herd size ÷ preferred cups on time (h) ÷ throughput (cows/cluster/hour) ÷ 2
……………. ÷ ……...…… ÷ ………..… ÷ 2 =
A check needs to be made on the proposed shed size to ensure that the availablelabour and maximum work load (clusters per labour unit) are compatible tomaintain maximum milking efficiency of the shed.
• Compare your calculated “cows on each platform” figure to:For Swing-over – available labour X max. clusters per labour unit.
................................. x ................................... = .....................
For Double-up – available labour X max. clusters per labour unit ÷ 2
............................ x ................................ ÷ 2 = .....................
The answer should be similar to the figure you calculated above for thenumber of cows on each platform. If the difference is greater then 3,adjustments need to be made to “available labour”, “preferred milking times”,and/or “clusters per labour unit” to maintain maximum milking efficiency ofthe shed. Having more clusters than the operators can handle is inefficient.
• As a guide, if no other information is available use:
Preferred milking time = 2 hours per milkingThroughput = 9 cows/cluster/hour for a swing-over
6 cows/cluster/hour for a double-upClusters per labour unit = 14 (range 10 - 24 depending upon milk
yield, degree of automation, milkingroutine, operators skill, shed design).
..............cow/side
..............cow/side
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8 The angle the cows stand?
45 degree
• easier for the cows to get used to• more difficult for the cows to eat their neighbours feed• allows for future expansion to 80 degree• platforms 50% longer than an 80 ° design for the same number of clusters
80-90 degree
• shorter shed• faster milking• more suited to larger sheds• cows move off the platform faster• wider shed• requires some form of cow restraint if feeding in the bails• takes longer for the cows to learn to stand at the correct angle
other ……….... degree
9 Cow restraints in a 80–90 o herringbone? (required if feeding during milking)
feed trough dividers
• cheap• not very effective
head stalls
• reasonable cost• effective• cows need to be “trained”
mechanical stall gates
• effective• less cow training required• expensive
other (describe)……….………………..
10 Exit type?
conventional
• able to draft cows as they leave the shed• both platforms can exit via the same route• slower unloading of platforms reducing throughput
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rapid exit
• fast unloading of platforms increasing throughput• best suited to larger sheds• requires extra space and concrete at both sides of the bails• difficult to draft cows after milking• cows exit the shed from two points which requires extra laneways.
11 A walkway in front of the cows heads?
NO YES how wide? ……...mm
• allows access to the cows heads during milking• easier access to the feeders for servicing• easier to clean walls• 600 – 800mm typical• makes building wider and more expensive
12 Width of pit (nib to nib)?
………mm
• Swing- over – minimum = 1500 mm– maximum = 1700 mm unless a trolley track
system for the rubberware is installed.
• Double-up – minimum = 1700 mm– maximum = unlimited
13 Depth of pit (cow platform to pit floor)?
………mm
• determined by height of operators. If too shallow operators will have tostoop to milk; if too deep the operator will have to stretch to put cups on,and water will run down operators arms when washing cows. Cows teatsshould be about 100mm above operator’s waist height. Standard depth850mm. Range 750 to 950 mm.
14 Platform overhang?
………mm
• allows operators to stand close to cows• protects operators from bumping into low-line milking machines• overhang requirements vary for different brands of milking machines• 200 – 450mm typical overhang
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15 Cow exit?
exit laneway to return cows to behind the holding yard backing gate
• allows the herd to leave the bails via the entry laneway• allows the herd to be held in the main holding yard after milking• reduces potential effluent management problems at the cow exit point• allows easy drafting• extra expense• more concrete to clean• cows stopping in the laneway can hold up following cows• cows have to turn at least two 90° corners slowing cow flow
straight out the front
• best design for cow flow• reduces weather protection for the operators• cow drafting facilities limited• extra laneways required• potential extra mud/bog/effluent problem• not possible if milk room on the end
out the side
• possible to use either or both sides• allows good weather protection for operators• extra laneways required• potential extra mud/bog/effluent problem• cow flow slowed because of turning
other ……………………...........................……………………
16 Exit gates?
pendulum
• excellent cow control• easily operated anywhere along pit• easy to use• expensive
lift up
• adequate cow control• cheap• can be set up to operate anywhere along pit but not convenient to use• can be noisy
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hinged
• cheap• can be set up to open anywhere along pit• self closing a possible option.• poor cow control
other ……………………………………………………….
17 Entry gates?
pendulum
• excellent cow control• can be operated anywhere along pit• expensive• cannot alter platform length
lift-up
• good cow control• some types can alter platform length• easy to use• some are expensive
hinged
• cheap• can alter platform length• poor cow control• more difficult to use if hinged from feeder side of platform
chain
• very cheap• can alter platform length• poor cow control
none
• best suited to 80 degree herringbones• no cow control• requires a good exit gate for cow control
other …………........………………………………………….
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18 Pipe-work in a 45 degree herringbone?
a) Breast rail
zig zig
• allows better location of feed boxes• more expensive• difficult to make adjustable and keep the angles correct• not necessary for cow control
straight
• cheaper• easy to make adjustable
b) Breech rail
zig zag
• locates the cow in the correct position in relation to the milking machines• better cow control• more expensive• no allowance for varying cow sizes
straight
• cheap• more suitable for mixed herd sizes• able to vary the number of cows on the platform if a continuous feed
trough is used
19 Nib required?
yes
• reduces wash-down water entering pit• allows cows to locate edge of pit• may incorporate leg rope tie-off facility• reduces dung and urine splashing
no
• saves building expense• require an alternative leg rope tie-off point to be fitted• more wash-down water, dung and urine will enter the pit• cow’s leg can slip over edge into the pit
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20 Nib Construction Material?
Steel
• allows the cows to stand at the pit edge• can form part of the pit overhang concrete form work• can incorporate leg rope tie-off points• requires fabricating to prevent accidental hoof damage• needs to be galvanised or constructed from stainless steel• expensive
concrete
• cheaper• forces cows to stand further away from the pit• dung and urine splashes off top edge into pit• no leg rope tie-off point
21 Splash guards?
yes
• reduces splash of dung and urine onto operators (potential spread ofdiseases)
• pit stays cleaner.• most suitable to an 80 degree sheds• more expense• difficult to identify cows if the guard is opaque• more difficult to move cows on and off platforms
no
• good cow visibility and access• exposes operators to dung and urine splash (potential spread of disease)
22 Splash guard material?
opaque - galvanised sheet steel or stainless steel
• durable• operator unable to see rear of cow
transparent – perspex, poly carbonate, etc
• able to see rear of cows• expensive• scratches and dis-colours with age• perspex may crack if excessively flexed
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23 Slope of milking area?
• often determined by slope of building site
towards holding yard
• allows effluent to be collected at one point
away from holding yard
• effluent collected at 2 points requiring transfer pump or pipe
24 Location of the bulk milk vat?
in milk room
• older vats must be located in the milk room
outside
• reduced building costs• only new sealed and totally insulated vats can be outside with
appropriate weather protection for the tanker driver.
25 Location of the milk-room in relation to the milking area?
at the exit end of pit
• building longer and narrower• cows must turn to exit building
to the side
• building shorter and wider• cows can exit without turning
26 The size of the milk room ?
…….…mm X ……….mm
• allow 450 mm clearance between the vat and walls, other vats andfixtures
• allow for up-grading to a larger vat if milk storage capacity will be aproblem in the future.
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27 Extra enclosed rooms?
• it is cheaper to include these facilities in the original building, then addon later.
NO YES wash room
office
store room
machine room
toilet
staff facilities
other ..........…………………
28 Extra facilities required?
• allowing for these facilities under the one roof or adjacent to the milkingarea will improve conditions for stock handling.
drafting
holding pens
crush
race
loading ramp
hospital area
other ………………...........................................................….
29 Shed Construction?
purpose built
• choice of building materials• sized exactly to what is required• limited use if no longer dairying• not re-locatable• possibly more expensive
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steel shed
• choice of “off the shelf” or custom sized• may be cheaper• can be self erected• often larger then what is required• re-locatable• can be a useful farm shed if no longer dairying
30 Roof profile?
flat
• maybe cheaper• easier to suspend bail pipe work from if correctly designed to do so• hotter
pitched
• cooler• more difficult to suspend bail pipe-work from
31 Holding yard size?
………..cows
• allow minimum 1.5 square metres per Friesian cow & 1.2 perJersey cow
32 Holding yard shape?
round
• easy to fit backing gate• easy to direct milked cows back into holding yard• cows can exit via entry laneway• minimum fencing to achieve required holding capacity• difficult to enlarge• position of entry gate crucial to cow flow• cannot flood wash successfully
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rectangular
• easy to enlarge• easy to flood wash• solid backing gates are more expensive• require exit laneway the length of the yard to direct milked cows back
into the yard behind the backing gate
33 Yard entry gate location?
a) rectangular
back
• best for cow flow• complicates flood wash system
side
• allows flood wash solids trap to be located across end of yard
b) rounddescribe………………………......................………………………..
• should be as far around the circumference from the platforms a possible
34 Yard backing gate?
solid/mechanical
• effective• expensive for rectangular yards• heavy
electric curtain lift-up pull-apart
• cheaper• not completely stock proof• only suitable for rectangular yards
other…………………………………......……………………
none
• slows down milking• more difficult to break in heifers to enter the bails
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35 Yard washing?
hose
• cheap• time consuming
flood from side, OR risers across yard
• fast• more expensive• requires specific criteria for yard design
other ……………………………………………………
36 Cow cooling system?
fans
• can reduce biting fly problems as well• best results when combined with sprinkler• moderate cost
yard sprinklers
• cheap• assists with yard washing• best cooling results when combined with fans• can cause sediment problems if cows get too wet
covered yard
• may be part of building, or free standing “sails”• best results if combined with sprinklers• expensive
none
• increased cow discomfort when temperature exceeds 28°C affectingmilk production
other ………………………………………………………….
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37 Dairy effluent collection?
drive-in solids trap
• reasonable separation of solids• suitable for flood wash• expensive• front end loader required
sump and pump
• moderate cost• minimal solids separation• not suitable for flood wash
drain (open or enclosed)
• cheap - using gravity to transport effluent to a collection/storage system• correct slope critical to minimise blockages• no solids separation
38 Feeding during milking required?
YES NO
39 Feed delivery system?
auger
• can handle a wide range of feeds• high throughput• can be noisy• expensive• requires additional augers to change direction
cable
• quiet• cheap• can turn 90 degree bends• can lift feed vertically• will deliver the unused feed back to the silo• cannot handle fibrous material (eg hay, cotton seed hulls)• low throughput• higher maintenance costs• less reliable
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flat chain
• quiet• cheap• can turn 90 degree bends• cannot handle fibrous feeds• low throughput• cannot lift feed vertically• usually requires another feed delivery system to transfer the feed
from the silo to the flat chain
centre-less auger
• cheap• reasonably quiet• can only turn large radius bends• eventually wear through the plastic casing• does not deliver the unused feed back to the silo
40 Feed hopper capacity?
large
• does not require refilling during milking• solid construction• able to continue to feed the cows during milking if there is a feed
delivery failure• feed delivery system does not run during milking• increases on-farm concentrate storage capacity• expensive• occupy more space
small
• cheap• compact• lightweight (often plastic) construction• requires refilling during milking• feed delivery failure will prevent feeding of the cows during milking• feed delivery system runs continuously during milking
41 Feed bin material?
stainless steel
• non corrosive• expensive
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fibreglass
• non corrosive• expensive
galvanised steel
• moderate cost• eventually rust out
plastic
• cheap• non corrosive• some not durable
42 Other things to consider
• Location of water outlets• Location of power outlets• Location of lights and switches• Location of compressors, pumps, motors, hot water service• Location of feed silos• Location of water troughs• Entry and exit laneways• Foot bath• Automation – eg cow ID, feeding, milk recording, teat spraying,
drafting• Location and size of windows• Location of doorways• Preferred construction material• Ceiling heights• Tanker access• Feed truck access• Preferred holding yard fence construction• Gate sizes• Pit access• Platforms stepped up, or pit stepped down, or combination of both• Storm water diversion away from effluent system• Surface finish on concrete• Weather protection• Installation of bulk vat into milk room
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KEY TRAINING OPPORTUNITIES
Milking machines and their installation should conform to Australian andTools, Courses, Packages Contact
Dairy Shed Design. Milk Harvesting Information Manual National Milk Harvesting Centre, Warragul - Victoria
Agfacts NSW Agriculture (District office)• Planning an 800 Herringbone Milking Shed• How many sets of cups?• Single Versus Doubled-up design – Which is best?
Building a Better Herringbone Milking Shed – NSW Agriculture (District office)Design & Construction Hints
Code of Practice for Dairy Buildings (9/1995) Safe Food Production NSW (ex NSW Dairy Corporation)
Countdown Downunder – Farm Guildelines for Local Veterinarian, NSW Agriculture (District office)Mastitis Control
Dairy shed building industry Dairy shed builders
Working Smarter not Harder Agriculture Victoria Milk Harvesting GroupLabour Productivity Benchmarking Manual
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International Standards to ensure the machine’s harvest as much milk as possiblein the shortest time with minimal cow discomfort and damage to the teat andudder.
The selection of the machines should be made prior to the commencement ofmodifying or building new sheds. Some machines require extra facilities (suchas larger pit overhang, extra space for components, carrier rails, brackets, poweroutlets, etc) which are easier to incorporate in the original plan, than to alter thedairy after the building is completed.
There are many alternatives and opinions on the milking machines and accessoriesmost suitable for your situation. However, differences in the milking performancebetween different brands of components of the same specifications are notsignificant. Brand choice should be made after considering:-
• price• after sales service• warranty• special features of a particular brand• reliability• quality of installation• qualifications of installer (AMMTA)
When comparing prices of different brands:-
• ensure that the quotes are for machines of similar specifications and features.• check to see if plumbing and electrical costs are included as well as “extras”
such as freight.• using the same brand for all components has advantages regarding warranty
and servicing, and should be the preferred option to mixing components.
Footnote:Standards have been developed and upgraded over the years to describe the minimumspecifications for milking machines. The current Standards or specifications in use in Australiaare the Australian Milking Machines Trade Association (AMMTA) Construction and PerformanceBased Standards (February 1997) which are based upon the International Standards Organisation5707 Standard.
SECTION 3
Selecting the Most Appropriate MilkingMachines
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The following check list will help you to assess your own milking machinerequirements.
Question – Why are new milking machines being considered?
New Shed
Expansion of existing shed
Upgrade of existing milking machines
If you have ticked “Upgrade of existing machines”, is there a problem with theexisting machines in regard to:-
• milking speed (cups on to cups off for individual cows)• cup slips (due to flooding)• cup falls (due to flooding)• udder and teat end health (eg mastitis, high cell counts, teat sores etc)• excessive foam in receival vessel or vat• spare parts availability• reliability• milk “slugging” in the milk line• milk quality• flooding
If not, an up-grade of your machines may not result in a significant improvementin milking machine performance.
Question – Will the proposed shed upgrade or new shed or extensions havethe capacity to milk the expected cow numbers in 5 years time?
YES NO
If you ticked “no”, do you intend to expand the shed again sometime in thefuture, (within 5 years) it may be financially beneficial to install some largermilking machines components at this up-grade (eg vacuum pump) to meet thesefuture requirements.
STEP ONE
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Question – What is your preferred milk and air line location if you areinstalling double-up machines in a herringbone shed?
high line – milk and airlines, and attached equipment stays cleanerand dryer
– slightly lowers the machines efficiency because of therequired lifting of milk
– pulsators more reliable (not exposed to water)– more clutter in pit with milk and air rubber-ware
low line – machines perform at their best– plant can operate on lower vacuum level– exterior of milk and air lines and receival vessel get
dirty unless splash guards fitted– pulsators exposed to potential water problems– extra pit length required for milk receival vessel
mid line – compromise between high and low line– splash guards behind cows required– can get in the way of the operators
Selecting the most appropriate components can be confusing as there is a choicefor most items. Ensure all components meet AMMTA Standards. The componentsthat you have a choice with are:-
a) Vacuum Pump
Oil lubricated vane pump
– cheapest– requires oil (cost)– wear out eventually.
Water ring – expensive– requires more power to drive pump– requires water supply– low maintenance– long life
Lobe pump – expensive– low maintenance– long life
Select a pump size that is operating between ½ and ¾ of its speed range togenerate the required vacuum. Check the kw (power) requirement to drive thepump as an upgrade of the dairy wiring may be required.
STEP TWO
STEP THREE
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b) Air line material
Stainless Steel
Plastic
There is no difference between either material regarding performance. Internaldiameters will be different between the two which the technician will allow for.Price and personal preference will determine the final choice.
c) Milk line configuration
Looped (two smaller diameter lines joined at far end)
– may wash better– potentially more stable vacuum– more expensive– occupies more space
Dead end (larger diameter single line)
– cheaper
Both have similar performance characteristics when sized correctly.
Both require the addition of specific extra components (air surger, butterfly valveetc) to ensure satisfactory cleaning.
d) Milk Pump
Centrifugal– compact
– high capacity
– cheapest
– two sizes
– can be variable speed
– not self priming, so must be located belowmilk receival vessel
– not as compatible with plate coolers unless a restrictorinstalled onto pump outlet, or a variable speed motorused.
– require float control switch
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Diaphragm
– 4 sizes– positive displacement so does not have to be located
below milk receival vessel– compatible with plate coolers– float switch not required– expensive– higher regular maintenance
– may not handle the wash cycle on larger plants– bulky– lower capacity
Flexible Impeller
– compact– high capacity– positive displacement but usually located below milk
receival vessel– can be variable speed– 3 sizes– expensive– higher maintenance than centrifugal pump– require float switch
e) Pulsation Systems
i) Pulsator configuration
2 x 2 (alternate)
– most popular– less vacuum fluctuations in the claw– allows possible differential pulsation between front &
back quarters– rubber-ware more expensive
4 x 0
– cheaper rubber-ware– may reduce the total number of pulsators required– higher vacuum fluctuations in the claw– may induce flooding in low capacity claws by fast
milking cows
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ii) Pulsator Type
Pneumatic self drive
– some are adjustable– cheap– run independent of each other– no power/wiring required– higher maintenance– settings (rate and ratio) can alter with wear
Electronic
Master controller and slaves
– generally the cheapest of the electronics– settings do not alter– more suitable to low-line application then electronic
independents because of potential water problem– settings adjustable– can have differential settings for front and back
quarters– water inside the pulsator can cause problems with the
electronics– all pulsators stop if master controller fails
Independent
– no master controller required– run independent of each other– require 12 volt power supply– less suitable to low line because of potential water
problems– can have differential settings for front & back quarters– most expensive
Pneumatic Master and Slave
– cheapest– not common– require air tubes to transfer the pulse signal– all pulsators stop if the master pulsator fails
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f) Cluster Weight (claw + cups + liners)
heavy (over 2 kg)
– tend to milk out more evenly if cluster poorly alignedto cow position
– better vacuum cut-off in short milk tube if using heavycups
– more tiring for operator if milking large herds.
light (under 2 kg)
– less tiring for the operators to use– possible uneven milking of quarters if cluster poorly
aligned– poor vacuum cut-off at the short milk tube.
g) Claws
Conventional size (100 - 200 ml capacity)
– cheapest– heavy– possible flooding problems in fast milking cows
(over 5 litres/minute) in highline sheds– more cup slips and falls from less stable vacuum
Larger Capacity (200 - 450 ml)
– generally lighter– less cup slips and falls from the more stable vacuum– milk marginally faster– reduced mastitis transfer between quarters– larger milk entries and exit– more expensive– some people may find more difficult to handle
because of larger size
h) Shells
light weight
– keeps the cluster weight down– may contribute to uneven milking of quarters in
swing-over herringbones with wide pits, or pooralignment of machines to cows
– vacuum cut-off at the short milk tube can be aproblem
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heavy weight
– more even milking– better vacuum cut-off at the short milk tube– increases cluster weight
i) Liners
There are a wide range of liners available on the market. Select a liner thatmeets the following criteria:-
• compatible with your shells regarding
• sealing top and bottom
• allow liner to collapse inside shell
• correct length to allow 5 - 15% stretch of liner to fit shell
• compatible with milk inlet nipple diameter on claw
• effective liner length greater than 140 mm
• bore diameter that keeps cup slip below 4% without causing damage to theteat or excessive milking time
• mouthpiece diameter that does not cause excessive milking times, excessivemilk left in the udder, cup crawl, excessive air leaks, or teat damage
Generally if you are happy with the performance of your present liners in regardto cup slips, teat end damage, air leaks, milking times, and complete milking, donot change the specifications of the mouthpiece and bore diameters when choosingnew liners.
j) Milk Filter
Disposable socks
– cheaper initially but higher operating costs
Re-usable socks
– more expensive initially– require washing and sterilising after each milking
The size of the filter is determined by milk volumes. There may be a benefit inincreasing the filter size if strategic washing of cows is practiced.
There are no other significant choices to be made regarding the other componentsof the basic milking machine. The size and configuration of your machines willdetermine the remaining components.
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Question - Is there any benefit in installing labour saving devices onto themilking machines to:-
• Delete one or more labour units during milking
• Reduce milking times by increasing the number of sets of cups theexisting milkers can handle
• Make it easier for the milkers to carry out milking and other relatedactivities
• Reduce over-milking thus improving udder and teat end health
• Improve herd management
There are a number of labour saving devices that can be added to your machineswhich can make milking easier, reduce milking times, reduce labour requirements,improve milk quality, improve udder and teat health, and improve herdmanagement.
The benefits should be compared to the cost of installing these extra components.
Labour saving devices to be considered are:-
in - place machine cleaning
– saves carrying buckets of water– can clean more effectively
programmed (automatic) machine cleaning
– saves carrying buckets of water– can clean more effectively– has a programmed wash cycle (press the start
button and walk away)
in - place vat cleaning
– can clean more effectively (but may require somemanual cleaning)
automatic teat cup removers
– fewer operators required– operators can handle more sets of cups– prevents over-milking– better udder and teat health
STEP FOUR
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vacuum reduction/arrest systems
– fewer operators required– operators can handle more sets of cups– prevents over-milking– better udder and teat health– can re-start milking if cow has 2nd let down– operator still required to remove cups
electronic milk recording
– accurate– allows herd recording at every milking– ideally suited to computerised recording keeping– can identify abnormal milk– expensive
electronic feeding
– allows cows to be fed automatically and individuallybased upon production
electronic cow identification
– allows further automation of electronic recording,electronic feeding and computerised record keeping
– can identify cows in season– expensive
automatic teat spraying
– saves time– better teat coverage than careless manual spraying– requires single file cow exit
automatic drafting
– saves time– requires electronic cow identification– requires single file cow exit
Note: Electronic milk recording, feeding and cow identification may require alteration of theexisting machine’s specifications and location. If these options are being considered forfuture installation, ensure the new machines are compatible.
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QUESTION Are there plans to up-grade the milk storage and/or coolingsystem?
YES NO
If you ticked “yes” the options are:-
Direct Expansion (conventional vat)
– cheapest to purchase– occupies the least space– pre-cooling (plate cooler) usually operates with water– expensive to run as cannot use off-peak power
Ice Bank
– majority of cooling done by plate cooler operatingwith ice water
– cheap to run - uses off peak electricity– lack of maintenance can cause problems– require a double bank plate cooler or two (2) plate
coolers– expensive to purchase
Glycol Thermal Storage
– cheap to run - uses off peak electricity– majority of cooling done by plate cooler operating on
glycol.– require a double bank plate cooler or two (2) plate
coolers– expensive– requires storage of large volume of glycol
Glycol Direct Expansion
– cheaper then glycol thermal storage to purchase– majority of cooling done by plate cooler operating on
glycol– vat direct expansion only to maintain milk below 4oC– expensive to run– require a double bank plate cooler or two (2) plate
coolers
Vat capacity required ………….............…. litres
STEP FIVE
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What to do Next
• When you have decided on the most suitable milking machines for yourneeds, contact the milking machine technicians that can service your area.There are at least 6 different brands of milking machine equipment availablein Australia.
• Obtain at least two (preferably three) fixed price quotes for the supply,installation and commissioning of the new machines.
• Make sure the quotes list the inclusions and exclusions in the price. Itemssuch as freight, hot water system, electrical work and plumbing can increasethe final price considerably.
• If the power requirement for the new machines is greater or different (3phase) than your old shed, obtain a price from the power supply company forthe upgrade before making any commitments.
• If the machines are being installed in a new or modified shed, make sure themilking machine technician and the shed builder get together prior tocommencement so required pipe-work, brackets, services etc. are located inthe correct position.
• It is advisable that the milking machine technician is present at the first milkingto ensure that the machines are functioning correctly.
• Final payment for the machines should be made after a milking time test hasbeen conducted, and the machines are functioning to their specifications andyour satisfaction.
STEP SIX
KEY TRAINING OPPORTUNITIES
Tools, Courses, Packages Contact
Countdown Downunder – Farm Guidelines for Local Veterinarian, NSW Agriculture (District Office)Mastitis Control
Milking machine industry Milking machine companies
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This audit will help you to determine if your dairy effluent management systemmeets the requirements of the Protection of the Environment Operations Act1997, and the NSW Guidelines for Dairy Effluent Resource Management;
The effluent management system best suited to your farm will depend on a numberof factors including farm size, farm lay-out, topography, effluent volumes, labourand capital resources, and available farm machinery.
It is important to ensure that dairy effluent:-
• does not pollute any watercourse including underground water.
• does not concentrate nutrients and/or water in the soil.
• does not pollute neighbouring properties.
• is not offensive in sight, odour, noise or dust.
This audit only covers dairy effluent that is collected from the bails, holding yardand adjacent concrete areas. Other cattle congregation areas (feed pads, entryand exit laneways, gravelled holding yards, cattle camps) can cause similarpollution problems, and are dealt with in a separate package.
Footnote:This audit is not a detailed examination of the effluent management system; there are nocalculations to determine whether the pond size and the land application area are adequatefor the amount and concentration of effluent generated. However you must complete thesecalculations (water, nutrient, organic matter and salt balances) as part of the design processoutlined in Step 10 in Section 5.
SECTION 4
Audit of Your Existing EffluentManagement System
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DAIRY EFFLUENT MANAGEMENT AUDIT
Question – Are you milking more than 800 cows now, or expect to within thenext 2 years?
YES NO
If “YES” you must be licensed by the EPA. Contact your nearest E.P.A. Office;they will advise you on how to get a licence for your existing dairy effluentmanagement system. There is no need to continue with this self-assessment, asthe E.P.A. will conduct a thorough assessment of your existing effluentmanagement system.
If “NO” your effluent management system must not contravene the Protectionof the Environment Operations Act 1997 and should meet the NSW Guidelinesfor Dairy Effluent Resource Management. Move to STEP 2.
AUDIT OF EXISTING EFFLUENT MANAGEMENT SYSTEMFill in the audit of your current effluent management system.
Collectiona) Estimate the proportion of effluent coming from the milking shed and
adjoining concrete areas that are effectively collected.
Proportion of milking shed waste collected
less than 100% 100%
b) What happens to rain water from the roof of the milking shed?
Rain water from the milking shed roof
enters the effluent collected or divertedmanagement system away from the effluent
management system
STEP ONE
STEP TWO
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c) What happens to rain water that falls on the holding yard, and entryand exit areas?
Rain water from the holding yard, and entry and exit areas
enters the effluent diverted away from themanagement system effluent management system
Solids separationd) What method of solids separation (separating stones, gravel, foreign
objects from the effluent) does your present system use?
none grate/gravel trafficable earthentrap solids trap sediment bay
other (describe) ……………………………………………………
e) Is your solids separation system effective?
YES NO
Storagef) What method of storage does your present system use?
none or less tank or sump 1 pond 2 or morethan 2 days (greater than ponds
storage 2 days storage)
other (describe) ………………….................……………………..
NOTE: Tanks and sumps of less than 2 days capacity do not constitute storageie: “none”.
g) Does your storage system have sufficient capacity to hold effluent forthe wettest period of the year when you cannot apply the effluent ontopastures without waterlogging, run-off, or contamination of ground-water occurring?
YES NO
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Distributionh) What method of distribution or land application does your present system
use?
none spray flood contour mobile moveableirrigation banks tanker open pipe
other (describe)……………………………………………………
“None” includes a drain or a fixed pipe into a paddock or bog hole.
“Spray” means a moveable spray, or through an irrigation system.
“Flood” means effective distribution by adding reclaimed water to floodirrigation water.
i) Is your land application site large enough to prevent waterlogging,run-off into waterways, or percolation through the soil profile into theground-water?
A guide for reclaimed water distribution is: -
– minimum 6 ha/100 cows (raw effluent)– minimum 3 ha/100 cows (ponded water)
YES NO
Buffer Zones
j) Does your effluent management system exceed the recommendedminimum buffer zone distances?
YES NO
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RECOMMENDED MINIMUM BUFFER ZONES FOR BEST PRACTICE
Safetyk) Are there adequate gates and fences around ponds, storage tanks and
solids separation pits to prevent people and stock from accidentallygetting in?
YES NO
l) Are signs placed around ponds, storage tanks and solids separation trapsexplaining “deep water” and “ surface crust will not support weight”?
YES NO
m) Are safety guards installed on pump belts and pulleys?
YES NO
Animal Healthn) Are calves under 12 months, forward springers and milkers prevented
from grazing paddocks that are used for land distribution of dairyeffluent?
Calves under 12 months YES NO
Forward springers YES NO
Milkers YES NO
* A conflict in buffer zones can occur between “existing neighbouring house” and “boundary fence”. Use the largeif the neighbouring house is within 100 metres of the boundary. Potential neighbouring house sites need to be takconsideration as well as existing dwellings. Care should be taken to minimise the use of your neighbour’s propertybuffer zone for your effluent management system.
# Permit required from DLWC and Local Council.
Specialist advice is necessary from DLWC where a town water supply bore is within 1000 metres of the effluentmanagement system.
Dairy Existing Boundary Water Domestic PublicNeighbouring House* Fence* Course Bore Roads
Pond 45m 200 m 100m 50m 250m 50m20m #
Manure heap, sludge stockpile 45m 200 m 100m 100m 250m 50m
Land application 45m 100m 10m 50m 250m 5m
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Assessmento) Is the system fully operational?
N/A YES NO
(If NO - why?) ………………………………………………………………
“N/A” means there is no system.
“YES” means that maintenance of the system will keep it operational. (We mustacknowledge that any system will have occasional down-time).
“NO” means the system has fallen into general disrepair and is unlikely to befixed.
p) Overall, – does the management of milking shed waste meet Industryobjectives?
The Industry objectives can be summarised as - “That waste:
• does not pollute any water course including underground water• does not concentrate nutrients and/or water in the soil• does not pollute neighbouring properties• is not offensive in sight, odour, noise or dust.
YES NO
(If NO – why?) ……………………………………………………………
stock sight/odour/ insufficient insufficient indirecthealth noise/dust buffer distribution discharge intoissues problem distance waterways
direct no wet safety other (describe) ……..…discharge weather issues
into managementwaterways system
Indirect Discharge means effluent will enter a watercourse as a result of run-offfrom the land disposal area after any rain event.
er valueken intoy as the
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EVALUATION OF THE AUDIT• At “COLLECTION” if you did not tick “100%” at (a) you have a problem.
All the areas where cows congregate in and around the dairy should haveeffluent management systems to prevent pollution.
• If you ticked “enters the effluent management system” at (b), has the systembeen designed to handle the extra water? If not, you have a problem.
• If you ticked ““enters the effluent management system” at (c), has the systembeen designed to handle the extra water? If not, you have a problem.
• If you ticked “diverted away from the effluent management system” at (c),are the holding yards, and entry and exit areas cleaned after each milking? Ifnot, you will have a pollution problem during wet weather from the rain waterrun-off from the dirty yards.
• At “SOLIDS SEPERATION” if you ticked “none”, at (d), what precautionshave been taken to prevent stones, gravel and foreign objects blocking thedistribution or land application system?
• If you ticked “no” at (e), determine if the problem is caused by poor design,or lack of maintenance. Is lack of adequate solids separation causing a problemwith the performance of the effluent management system?
• At “STORAGE” if you ticked “none” or “tank or sump greater than 2days storage” at (f), does the dairy effluent cause pollution problems duringwet weather? If there is a potential problem, storage facilities should beincorporated into the system.
• If you ticked “no” at (g), determine if this problem is caused by lack ofstorage capacity or lack of maintenance (eg. sludge build up).
• At “DISTRIBUTION” if you ticked “none” at (h), you have a problem.Concentrating nutrients and effluent in the soil is considered pollution, andyour effluent system should be designed to ensure that this does not occur.
• If you ticked “no” at (i) you have a problem. Increase the land applicationarea, move the sprinkler more often, or use a wet weather storage system.
• At “BUFFER ZONES” if your ticked “no” at (j) you have a potentialproblem. Ensure any new effluent management structures exceed therecommended minimum buffer zone distances and managed correctly.
• At “SAFETY” if you ticked “no” at (k) (l) or (m) you have a problem.You have a legal and moral obligation to identify and restrict human andstock access to potentially dangerous sites on your farm.
• At “ANIMAL HEALTH” if you ticked “no” at (n) you have a potentialproblem. Dairy effluent can harbour pathogens that can cause mastitis inmilkers and forward springers, spread Johnes Disease to young calves, andcontaminate milk. Restriction of stock on distribution sites is also arequirement of on-farm quality assurance (HACCP) programs.
STEP THREE
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• At “ASSESSMENT” if you ticked either “no” or “n/a” at (o) you have aproblem. Effluent management systems that are not fully operational andcorrectly designed will cause pollution problems.
If at (p) you ticked “no” you should have been able to identify the problem orproblems with your existing management system that needs to be addressed.
Section 5 of this manual will allow you to determine the most appropriate upgradeof your existing effluent management system, or the best design for a new system.
Using the Effluent Management Audit and knowledge of your operations, pleaseconsider the following questions…..
What are your strengths in Effluent Management?
WHAT are your opportunities in Effluent Management?
WHAT do you need to change?
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WHAT are the most pressing changes?
WHAT will you address first?
WHAT will you achieve by taking action?
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Dairy effluent is a resource containing water, solids, organic matter, salts andnutrients. The most efficient management system should concentrate on:
a) reducing the volume of effluent produced,
b) reclaiming all effluent at the bails and immediate surrounds,
c) recycling all the water, solids, organic matter, salts and nutrients.
The following check list will help you design the most appropriate effluentmanagement system for your farm.
Question – Are there any plans to do any of the following within the next 5years:-
• increase herd size
• increase yard size
• alter the dairy
• alter water consumption for cleaning of yards and machines
• alter yard cleaning method
• alter storm water run-off diversion or collection from yards and sheds
YES NO
If “YES”, your current dairy effluent management system may not be able tohandle the increased loading of water, solids, organic matter, salts and nutrients.
If your effluent management system has passed the audit (Section 4) and youanswered “NO” to STEP 1, there is no need to continue working through thissection.
If your audit evaluation indicated that you have a problem, or you answered“YES” at STEP 1, continue to determine the most appropriate effluentmanagement system for your farm.
SECTION 5
Designing Your New or UpgradedEffluent Management System
STEP ONE
STEP TWO
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The Planning Process• Source available information on dairy waste systems from NSW Agriculture,
Department of Land & Water Conservation and the local council.
• Check with the local council on the level of documentation required withyour application.
• Inspect completed on-farm systems and talk to the owners.
• Obtain specialist advice.
Calculate the volume of dairy effluent produced per day to be reclaimed andrecycled.
Include: a) yard wash-down volume
b) milking machine & vat wash volumes
c) roof rain water if not diverted
d) yard rain water if not diverted
This information will be required to calculate pond sizes and land applicationareas at Step 10.
Identify all cattle congregation areas that need to be included in the effluentmanagement system. (bails, holding yards, immediate laneways, feed pads etc).
Question – Do you require solids separation to be incorporated into thesystem?
YES NO
Solids separation will help prevent pump and spray blockages, increase the lifeof pumps, increase intervals between de-sludging of ponds, reduce landdistribution area required, but increase capital and labour requirements.
STEP THREE
STEP FOUR
STEP FIVE
STEP SIX
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Question – Which solids separation system is best suited to your farm?
Grate or gravel trap – cheap– not very effective– daily cleaning
Trafficable solids trap – effective– front end loader required– expensive
Earthern sediment bay – effective– cheap– difficult to empty
Question - Do you require to store your dairy effluent for an extended periodof time.
YES NO
What safety precautions are in place to prevent polluting waterways during wetperiods? (eg. a large land application site well away from any waterways).
Question - Which storage system do you prefer?
1) tank or sump with greater than 2 days capacity
– minimal space– moderate cost– no treatment– frequent emptying
2) one pond – low treatment– often lowest cost per litre of storage
3) multiple ponds – higher level of treatment– suitable for re-cycling as flood wash– occupy largest area– most expensive.
STEP SEVEN
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Question - Which land distribution system do you prefer?
1) Dedicated spray irrigator – good distribution if moved when required– can be self propelled– expensive– moderate labour
2) Existing farm spray irrigation system– low cost– excellent distribution– low labour– unable to handle any solids
3) Existing flood irrigation – low cost– low labour– excellent distribution– can cause pollution problems of supply &
drainage channels
4) Contour Banks – low labour– disturbs paddocks– moderate cost– poor distribution– not recommended
5) Mobile Tankers – ideal distribution– high daily labour requirements– expensive– wet weather problems if cannot drive on
paddocks
6) Moveable open pipe – low cost– requires daily movement (which is easily
overlooked)– poor distribution– high labour– unreliable– not recommended
STEP EIGHT
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Selecting the most appropriate site
Integrate with whole farm plan – allow for future property development.
• Get a topographical survey if required.• Check the soil suitability for proposed works.• Consider future development of neighbouring properties.• Land capability/sustainability for effluent reuse.• Exclude land with potential for degradation/erosion• Ensure there is an adequate area of land for waste disposal• Comply with buffer zone recommendations.
Confirm the suitability of your preferred design as determined by Steps4- 9 inclusive• A water, nutrient, organic matter and salt balance is required to ensure that
the storage and land application site are correctly sized.
• Ensure appropriate human and stock safety measures are incorporated in thedesign.
• Consider using a qualified consultant.
• Consult with NSW Agriculture and the Dept Land & Water Conservation.
• If ponds are included, confirm suitability of site and soils by digging a trench0.5 metres below proposed pond base. Examine profile and test soil forsealing capality.
• Finalise plans & documentation.
The approval process• Submit application to:-
• Local Council (and if the proposal development is likely to pollutewaters, the NSW EPA).
• DLWC for Water licence.
• DLWC for Clearing consent (if required).
• DLWC and the Local Council for earthworks within 40 metres of awatercourse.
• DLWC if within 1000 metres of a town water supply bore.
STEP NINE
STEP TEN
STEP ELEVEN
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The Construction Process
• After approval has been received, obtain 2 or 3 quotes for construction (withfixed prices).
• Finalise a contract with selected builder.
Required inspections• Arrange final inspection of completed works by:-
• the Local Council.• the NSW EPA if a licence under the POEO Act has been applied for.
Operation & Monitoring• Operate the system in accordance with the design approval and best
management practice.• Ensure human and stock safety measures are maintained.• Monitor the system’s sustainability.
STEP TWELVE
STEP THIRTEEN
STEP FOURTEEN
KEY TRAINING OPPORTUNITIES
Tools, Courses, Packages Contact
NSW Guidelines for Dairy Effluent Resource NSW Agriculture (District Office), Local Council, EPA
Management Managing Dairy–shed Wastes Roger Wrigley VCAH, Dookie campusVolume 1Volume 2
Code of Practice for Dairy Buildings (9/1995) Safe Food Production NSW. (ex NSW Dairy Corporation)
Countdown Downunder - Farm Guildelines for Local Veterinarian, NSW Agriculture (District office)Mastitis Control
Intensive Agriculture and the Development NSW Agriculture Agnote DPI/261Control Process
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APPENDIX I
Checklist Summary
Date: / /
FARMER: LOCATION:
PHONE:
TENDER DOCUMENT - QUESTION SHEET
This checklist has been prepared as a guide to ensure all essential criteria associated with your upgrade or new milkingshed has been covered. To use these checklists simply circle the preferences, add measurements, and add commentsin spaces provided.
The purpose of the check is to formulate a customised tender document that can be used when obtaining quotations for yournew project. It will also serve as a memory jogger when establishing both the needs and contents of your quotations.
MILKING SHED DETAIL OPTIONS (circle or fill in)
MILKING MACHINE SET-UP swing over double up
NUMBER OF COWS ON SIDE …………cows
ANGLE THE COWS STAND 45 degree 80-90 degree other........................................
COW RESTRAINTS IN A mechanical80-90 0 HERRINGBONE feed trough dividers head stalls stall gates other .................................
EXIT TYPE conventional rapid exit
A WALKWAY IN FRONTOF THE COWS HEADS? no yes ....... mm wide
WIDTH OF PIT …..…… mm
DEPTH OF PIT ……..… mm
PLATFORM OVERHANG ……..… mm
COW EXIT exit laneway to return cows straightto behind the holding yard out the out the side other ............................backing gate front
EXIT GATES pendulum lift up hinged other …………………………………...…
ENTRY GATES pendulum lift up hinged chain none other ...............................
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450 BREAST RAIL zig zag straight
450 BREECH RAIL zig zag straight
NIB REQUIRED yes no
NIB CONSTRUCTION MATERIAL steel concrete
SPLASH GUARDS yes no
SPLASH GUARD MATERIAL opaque – galvanised sheet transparent – perspexsteel or stainless steel or poly carbonate
SLOPE OF MILKING AREA towards holding yard away from holding yard
LOCATION OF THEBULK MILK VAT in milk room outside
LOCATION OF THE MILKROOM IN RELATION TO THE at the exit to theMILKING AREA end of pit side
THE SIZE OF THE MILK ROOM ……………..mm X ……………….mm
EXTRA ENCLOSED ROOMS no yes
(if yes circle) wash room office store room machine room toilet staff facilities
other………………………………………...................................………..
EXTRA FACILITIES REQUIRED drafting holding pens crush race loading ramp hospital area
other…………………………………………………………………
SHED CONSTRUCTION purpose built steel shed
ROOF PROFILE flat pitched
HOLDING YARD SIZE …….........… cows
HOLDING YARD SHAPE round rectangular
YARD ENTRY GATE LOCATION
RECTANGULAR back side
ROUND describe………………………………………………………….
YARD BACKING GATE solid/ mechanical electric curtain other none
YARD WASHING hose flood other ……….......…………...
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COW COOLING SYSTEM fans yard sprinklers covered yard none other …………………..…
DAIRY EFFLUENT COLLECTION drive-in solids trap sump & pump drain
FEEDING DURING MILKING yes no
FEED DELIVERY SYSTEM auger cable flat chain centre-less auger
FEED HOPPER CAPACITY large small
FEED BIN MATERIAL stainless steel fibreglass galvanised steel plastic
MILKING MACHINES
VACUUM PUMP oil lubricated water ring lobe pump vane pump
AIR LINE MATERIAL stainless steel plastic
MILK LINE CONFIGURATION looped dead end
MILK PUMP centrifugal diaphragm flexible impeller
PULSATOR CONFIGURATION 2 x 2 (alternate) 4 x 0
PULSATOR TYPE pneumatic pneumatic master electronic master electronicself drive and slave and slave independent
CLUSTER WEIGHT(CLAW + CUPS + LINERS) heavy over 2 kg light under 2 kg
CLAWS conventional size (100 - 200 ml capacity) larger capacity (200 - 450 ml)
SHELLS light weight heavy weight
LINERS brand ………………….....……….. model………………………..
MILK FILTER disposal socks re-usable socks
NEW BULK MILK VAT direct expansion ice bank glycol thermal glycol direct storage expansion
BULK MILK VAT CAPACITY …….......…. litres
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EFFLUENT MANAGEMENT SYSTEM
SOLIDS SEPARATION yes no
SOLIDS SEPARATION SYSTEM grate or trafficable eatherngravel trap solids trap sediment bay
DAIRY EFFLUENT STORAGE yes no
STORAGE SYSTEM tank or sump with one pond multiple pondsgreater than 2 dayscapacity
LAND DISTRIBUTION SYSTEM Dedicated spray existing farm spray existing flood contour banksirrigator irrigation system irrigation (not recommended)
mobile tankers moveable open pipe(not recommended)
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After you have completed the sections on herringbone shed design, milkingmachine selection effluent management and the tender document, you shouldhave a clear and concise description on the new or up-graded dairy that yourequire.
The following will help you get your proposed new or up-graded dairy from anidea to reality.
Visit dairies that are similar to your proposed new dairy to ensure that your ideasare workable. Talk to the owners and the milkers to see if they would changeanything and observe how well the shed performs.
Plans need to be drawn up for your new dairy based upon you completed Sections1,2 & 3. The plans should show a floor plan, cross section, side elevations, siteplan and effluent management plan, detailing dimensions, construction materialsand sizes, spacings etc. Engineer certificates may be required for footings,concrete slab design and re-enforcing and the shed. Local Council will adviseyou. An Engineers Certificate will be supplied with purchased steel sheds. Theeffluent management plan should comply with the NSW Guidelines for DairyEffluent Resource Management detailing both design and management of thesystem. Local Council is the consenting authority on the effluent managementsystem and may impose more stringent conditions than outlined in the Guidelinesif they consider there is a threat to the environment.
Obtain a copy of the Code of Practice for Dairy Buildings (September 1995)from the Safe Food Production, NSW. Your dairy must comply with this Codeand Local Council requirements.
Contact the Department of Land & Water Conversation to see if there are anyissues that may concern them about your proposed new dairy such as proximityto watercourses, earthworks for the effluent ponds, land clearing etc.
STEP ONE
STEP TWO
STEP THREE
APPENDIX II
The Building Process
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Decide who is going to build the dairy - you as an owner builder, or a licensedbuilder. If you are doing the building as an owner builder, you will not require anowner builder’s permit as the dairy is classed as commercial. Check with theAustralian Taxation Office about your obligations regarding employing buildingcontractors. The Prescribed Payments System (PPS) has been replaced by theGoods and Services Tax system.
If you are going to use a licensed builder, make sure their license is current. It isadvisable to get quotes on the building from three (3) different builders. Thesequotes should be fixed for a period of time. However, the builders may not beable to finalise their quotes until the plans are approved as there may be someun-expected additional requirements imposed by local council.
Submit the completed plans to Local Council for approval. A Local DevelopmentApproval and Construction Certificate will need to be lodged with the plans. AStatement of Environment Effect may also have to be submitted with the plansoutlining the nature of enterprise and it’s effect on the surrounding environment.There may be specific issues that need to be addressed such as acid sulphatesoils, flooding, noise, traffic etc. Local Council will advise you on what extradocumentation is required.
If you intend to milk more than 800 cows, the EPA will require you to be licensedand request detailed documentation on the enterprise which may include anEnvironmental Impact Statement.
If you are housing animals your enterprise may be classified as a feed-lot andyou will have to comply to the code of practise for feed lots.
Where Local Council considers there may be a threat to the environment orconflict with neighbours, or there are objections to the proposed developmentby the public, Local Council may seek comment from other Government Agencies(NSW Agriculture, EPA, DLWC, DUAP) before approval is granted. This iscalled the development control process for intensive agriculture. You will haveto provide detailed documentation of effluent management, traffic, noise, odour,dust, visual impact, stock movement etc which will require, in most cases, theemployment of a consultant to provide the required information on your behalf.
Finalise the quotes with the builders after the plans are approved. Ask for namesand addresses of previous buildings completed by them so you can inspect theirworkmanship. Talk to the owners and see if there were any problems with thebuilder.
STEP FOUR
STEP SIX
STEP FIVE
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Once you have chosen the builder, a contract should be negotiated documentingprices, payment schedules, commencement and completion dates, inclusions andexclusions, warranty, and any other issues that need to be documented.
Contact Safe Food Production NSW (ex NSW Dairy Corporation) to find out ifthey have any requirements in relation to your HACCP program.
Contact your dairy factory to find out their requirements for tanker access - roadwidth, turning bay diameter, vat access etc.
Decide which milking machine technician will be installing the machines, vatand other associated components. Make sure they are involved from the beginningto ensure their requirements are met.
Stick with the program. Don’t get talked into changing the plans and compromisingthe shed’s performance just to make it easier for the builder. If you change yourideas on what you want during construction, you may be up for additional expenses.
If you are an owner builder it is your responsibility to keep the sub-contractorsinformed on the progress and when their services are required. Involve themilking machine technician during the construction of the dairy to ensure thatservices (power and water) are located in the required positions, as well as supportpipes, holes through walls etc.
Local Council may require site inspections for drainage, footings, (before pouring),slab re-enforcement (before pouring), frame, and final. Make sure these arecarried out if requested.
STEP SEVEN
STEP EIGHT
STEP NINE
STEP TEN
STEP ELEVEN
STEP TWELVE
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Inspect the building during construction regularly to ensure it is to yourspecifications. Common problem areas are:-
• bail pipe-work stanchions in the wrong location• shrinkage cracks in the concrete• concrete surfaces too slippery or too rough• concrete allowed to cure too fast resulting in a poor wearing surface• floor slopes wrong allowing pooling of water• concrete re-enforcing in the milking area not welded together and to the pipe
stanchions, then earthed.
Make the final payment after completion and the building meets the specificationsof the plans and Local Council requirements.
Arrange for the milking machine technician to install the machines and otherassociated equipment as per the agreed tender document. Final payment for themachines should be made after commissioning and they are working to themanufacturers’ specifications and your satisfaction. Insist on a “milking time”test of the milking machines one month after the plant has been commissioned toensure that the working vacuum at peak flow rates is to AMMTA specifications.
If you have a dispute with the builder or sub-contractors, The Department ofFair Trading can assist. There is also a Fair Trading Tribunal that can adjudicateif the dispute needs legal interpretation.
STEP THIRTEEN
STEP FOURTEEN
STEP FIFTEEN
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The decision to continue milking in your older inefficient shed, or upgrade into anew or modified shed requires careful planning.
A partial budget can be used to calculate the financial implications (cost benefitanalysis) of a new or modified shed.
New/modified shed partial budgetPositive Impacts
1 Increased Revenue• More time to do other farm work• Time to work off-farm• More milk
– increased grazing time
– less cow discomfort
2 Reduced Costs• Less Labour• Lower repairs and maintenance on shed• Lower operating costs
Negative Impacts
1 Reduced Revenue2 Increased Costs
• Interest on borrowed money• Opportunity costs if own money used• Depreciation• Service of new milking machine
Qualitative impacts need to be taken into consideration that cannot be allocateda dollar value. The main qualitative positive impact is time that could be usedfor personal/family/leisure activities.
A new/modified shed may not be able to be justified purely in financial benefitsoutweighing costs without taking qualitative impacts into consideration.
APPENDIX III
Partial Budgeting
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NOTES: